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Title: Ryanodine receptors in human pancreatic beta cells: localization and effects on insulin secretion. Author: Johnson JD, Kuang S, Misler S, Polonsky KS. Journal: FASEB J; 2004 May; 18(7):878-80. PubMed ID: 15033925. Abstract: It is clear that pancreatic beta-cell dysfunction, including basal hyperinsulinemia and reduced insulin release in response to glucose, is a key determinant of disease progression in type 2 diabetes, but the underlying molecular defects are not known. In diabetes, the expression and function of ryanodine receptor (RyR) Ca2+ release channels are reduced. The present studies were undertaken to define the subcellular location and role of RyR in the control of stimulated and basal insulin release from human pancreatic beta cells. Using confocal microscopy, we observed RyR immunoreactivity in a vesicular pattern. RyRs did not colocalize with insulin secretory granules but partially colocalized with endosomes. Direct activation with nanomolar concentrations of ryanodine evoked increases in cytosolic Ca2+ that were coupled to transient insulin release. Insulin release stimulated by 1 nM ryanodine was sensitive to BAPTA-AM preincubation but independent of thapsigargin-sensitive endoplasmic reticulum (ER) Ca2+ pools. Blocking RyRs with micromolar concentrations of ryanodine led to BAPTA-resistant insulin release that was not associated with an increase in cytosolic Ca2+, which implicated alterations in luminal Ca2+. However, neither Ca2+ signals nor insulin release stimulated by glucose was blocked by 10-50 microM ryanodine, which suggests that the CD38/cyclic ADP-ribose/RyR pathway is not a primary mechanism of glucose action in nontransformed beta cells. We provide the first evidence that RyRs directly control insulin secretion in primary beta cells. Unexpectedly, stimulation of insulin secretion by ryanodine occurs independently of glucose and by two mechanisms, including a novel cytosolic Ca2+-independent mechanism likely involving changes in Ca2+ within the lumens of non-ER organelles, such as endosomes.[Abstract] [Full Text] [Related] [New Search]